Mini Shell
#
# This is library of helper functions that can be used in scripts in tuned profiles.
#
# API provided by this library is under heavy development and could be changed anytime
#
#
# Config
#
STORAGE=/run/tuned
STORAGE_PERSISTENT=/var/lib/tuned
STORAGE_SUFFIX=".save"
#
# Helpers
#
# Save value
# $0 STORAGE_NAME VALUE
save_value() {
[ "$#" -ne 2 ] && return
[ "$2" -a -e "${STORAGE}" ] && echo "$2" > "${STORAGE}/${1}${STORAGE_SUFFIX}"
}
# Parse sysfs value, i.e. for "val1 [val2] val3" return "val2"
# $0 SYSFS_NAME
parse_sys() {
local V1 V2
[ -r "$1" ] || return
V1=`cat "$1"`
V2="${V1##*[}"
V2="${V2%%]*}"
echo "${V2:-$V1}"
}
# Save sysfs value
# $0 STORAGE_NAME SYSFS_NAME
save_sys() {
[ "$#" -ne 2 ] && return
[ -r "$2" -a ! -e "${STORAGE}/${1}${STORAGE_SUFFIX}" ] && parse_sys "$2" > "${STORAGE}/${1}${STORAGE_SUFFIX}"
}
# Set sysfs value
# $0 SYSFS_NAME VALUE
set_sys() {
[ "$#" -ne 2 ] && return
[ -w "$1" ] && echo "$2" > "$1"
}
# Save and set sysfs value
# $0 STORAGE_NAME SYSFS_NAME VALUE
save_set_sys() {
[ "$#" -ne 3 ] && return
save_sys "$1" "$2"
set_sys "$2" "$3"
}
# Get stored sysfs value from storage
# $0 STORAGE_NAME
get_stored_sys() {
[ "$#" -ne 1 ] && return
[ -r "${STORAGE}/${1}${STORAGE_SUFFIX}" ] && cat "${STORAGE}/${1}${STORAGE_SUFFIX}"
}
# Restore value from storage
# $0 STORAGE_NAME
restore_value() {
[ "$#" -ne 1 ] && return
_rs_value="`get_stored_sys \"$1\"`"
unlink "${STORAGE}/${1}${STORAGE_SUFFIX}" >/dev/null 2>&1
[ "$_rs_value" ] && echo "$_rs_value"
}
# Restore sysfs value from storage, if nothing is stored, use VALUE
# $0 STORAGE_NAME SYSFS_NAME [VALUE]
restore_sys() {
[ "$#" -lt 2 -o "$#" -gt 3 ] && return
_rs_value="`get_stored_sys \"$1\"`"
unlink "${STORAGE}/${1}${STORAGE_SUFFIX}" >/dev/null 2>&1
[ "$_rs_value" ] || _rs_value="$3"
[ "$_rs_value" ] && set_sys "$2" "$_rs_value"
}
#
# DISK tuning
#
DISKS_DEV="$(command ls -d1 /dev/[shv]d*[a-z] 2>/dev/null)"
DISKS_SYS="$(command ls -d1 /sys/block/{sd,cciss,dm-,vd,dasd,xvd}* 2>/dev/null)"
_check_elevator_override()
{
/bin/fgrep -q 'elevator=' /proc/cmdline
}
# $0 OPERATOR DEVICES ELEVATOR
_set_elevator_helper() {
_check_elevator_override && return
SYS_BLOCK_SDX=""
[ "$2" ] && SYS_BLOCK_SDX=$(eval LANG=C /bin/ls -1 "${2}" 2>/dev/null)
# if there is no kernel command line elevator settings, apply the elevator
if [ "$1" -a "$SYS_BLOCK_SDX" ]; then
for i in $SYS_BLOCK_SDX; do
se_dev="`echo \"$i\" | sed 's|/sys/block/\([^/]\+\)/queue/scheduler|\1|'`"
$1 "elevator_${se_dev}" "$i" "$3"
done
fi
}
# $0 DEVICES ELEVATOR
set_elevator() {
_set_elevator_helper save_set_sys "$1" "$2"
}
# $0 DEVICES [ELEVATOR]
restore_elevator() {
re_elevator="$2"
[ "$re_elevator" ] || re_elevator=cfq
_set_elevator_helper restore_sys "$1" "$re_elevator"
}
# SATA Aggressive Link Power Management
# usage: set_disk_alpm policy
set_disk_alpm() {
policy=$1
for host in /sys/class/scsi_host/*; do
if [ -f $host/ahci_port_cmd ]; then
port_cmd=`cat $host/ahci_port_cmd`;
if [ $((0x$port_cmd & 0x240000)) = 0 -a -f $host/link_power_management_policy ]; then
echo $policy >$host/link_power_management_policy;
else
echo "max_performance" >$host/link_power_management_policy;
fi
fi
done
}
# usage: set_disk_apm level
set_disk_apm() {
level=$1
for disk in $DISKS_DEV; do
hdparm -B $level $disk &>/dev/null
done
}
# usage: set_disk_spindown level
set_disk_spindown() {
level=$1
for disk in $DISKS_DEV; do
hdparm -S $level $disk &>/dev/null
done
}
# usage: multiply_disk_readahead by
multiply_disk_readahead() {
by=$1
# float multiplication not supported in bash
# bc might not be installed, python is available for sure
for disk in $DISKS_SYS; do
control="${disk}/queue/read_ahead_kb"
old=$(cat $control)
new=$(echo "print int($old*$by)" | python)
(echo $new > $control) &>/dev/null
done
}
# usage: remount_disk options partition1 partition2 ...
remount_partitions() {
options=$1
shift
for partition in $@; do
mount -o remount,$options $partition >/dev/null 2>&1
done
}
remount_all_no_rootboot_partitions() {
[ "$1" ] || return
# Find non-root and non-boot partitions, disable barriers on them
rootvol=$(df -h / | grep "^/dev" | awk '{print $1}')
bootvol=$(df -h /boot | grep "^/dev" | awk '{print $1}')
volumes=$(df -hl --exclude=tmpfs | grep "^/dev" | awk '{print $1}')
nobarriervols=$(echo "$volumes" | grep -v $rootvol | grep -v $bootvol)
remount_partitions "$1" $nobarriervols
}
DISK_QUANTUM_SAVE="${STORAGE}/disk_quantum${STORAGE_SUFFIX}"
set_disk_scheduler_quantum() {
value=$1
rm -f "$DISK_QUANTUM_SAVE"
for disk in $DISKS_SYS; do
control="${disk}/queue/iosched/quantum"
echo "echo $(cat $control) > $control" >> "$DISK_QUANTUM_SAVE" 2>/dev/null
(echo $value > $control) &2>/dev/null
done
}
restore_disk_scheduler_quantum() {
if [ -r "$DISK_QUANTUM_SAVE" ]; then
/bin/bash "$DISK_QUANTUM_SAVE" &>/dev/null
rm -f "$DISK_QUANTUM_SAVE"
fi
}
#
# CPU tuning
#
CPUSPEED_SAVE_FILE="${STORAGE}/cpuspeed${STORAGE_SUFFIX}"
CPUSPEED_ORIG_GOV="${STORAGE}/cpuspeed-governor-%s${STORAGE_SUFFIX}"
CPUSPEED_STARTED="${STORAGE}/cpuspeed-started"
CPUSPEED_CFG="/etc/sysconfig/cpuspeed"
CPUSPEED_INIT="/etc/rc.d/init.d/cpuspeed"
# do not use cpuspeed
CPUSPEED_USE="0"
CPUS="$(ls -d1 /sys/devices/system/cpu/cpu* | sed 's;^.*/;;' | grep "cpu[0-9]\+")"
# set CPU governor setting and store the old settings
# usage: set_cpu_governor governor
set_cpu_governor() {
governor=$1
# always patch cpuspeed configuration if exists, if it doesn't exist and is enabled,
# explicitly disable it with hint
if [ -e $CPUSPEED_INIT ]; then
if [ ! -e $CPUSPEED_SAVE_FILE -a -e $CPUSPEED_CFG ]; then
cp -p $CPUSPEED_CFG $CPUSPEED_SAVE_FILE
sed -e 's/^GOVERNOR=.*/GOVERNOR='$governor'/g' $CPUSPEED_SAVE_FILE > $CPUSPEED_CFG
fi
else
if [ "$CPUSPEED_USE" = "1" ]; then
echo >&2
echo "Suggestion: install 'cpuspeed' package to get best tuning results." >&2
echo "Falling back to sysfs control." >&2
echo >&2
fi
CPUSPEED_USE="0"
fi
if [ "$CPUSPEED_USE" = "1" ]; then
service cpuspeed status &> /dev/null
[ $? -eq 3 ] && touch $CPUSPEED_STARTED || rm -f $CPUSPEED_STARTED
service cpuspeed restart &> /dev/null
# direct change using sysfs
elif [ -e /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then
for cpu in $CPUS; do
gov_file=/sys/devices/system/cpu/$cpu/cpufreq/scaling_governor
save_file=$(printf $CPUSPEED_ORIG_GOV $cpu)
rm -f $save_file
if [ -e $gov_file ]; then
cat $gov_file > $save_file
echo $governor > $gov_file
fi
done
fi
}
# re-enable previous CPU governor settings
# usage: restore_cpu_governor
restore_cpu_governor() {
if [ -e $CPUSPEED_INIT ]; then
if [ -e $CPUSPEED_SAVE_FILE ]; then
cp -fp $CPUSPEED_SAVE_FILE $CPUSPEED_CFG
rm -f $CPUSPEED_SAVE_FILE
fi
if [ "$CPUSPEED_USE" = "1" ]; then
if [ -e $CPUSPEED_STARTED ]; then
service cpuspeed stop &> /dev/null
else
service cpuspeed restart &> /dev/null
fi
fi
if [ -e $CPUSPEED_STARTED ]; then
rm -f $CPUSPEED_STARTED
fi
else
CPUSPEED_USE="0"
fi
if [ "$CPUSPEED_USE" != "1" -a -e /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then
for cpu in $CPUS; do
cpufreq_dir=/sys/devices/system/cpu/$cpu/cpufreq
save_file=$(printf $CPUSPEED_ORIG_GOV $cpu)
if [ -e $cpufreq_dir/scaling_governor ]; then
if [ -e $save_file ]; then
cat $save_file > $cpufreq_dir/scaling_governor
rm -f $save_file
else
echo userspace > $cpufreq_dir/scaling_governor
cat $cpufreq_dir/cpuinfo_max_freq > $cpufreq_dir/scaling_setspeed
fi
fi
done
fi
}
_cpu_multicore_powersave() {
value=$1
[ -e /sys/devices/system/cpu/sched_mc_power_savings ] && echo $value > /sys/devices/system/cpu/sched_mc_power_savings
}
# enable multi core power savings for low wakeup systems
enable_cpu_multicore_powersave() {
_cpu_multicore_powersave 1
}
disable_cpu_multicore_powersave() {
_cpu_multicore_powersave 0
}
#
# MEMORY tuning
#
THP_ENABLE="/sys/kernel/mm/transparent_hugepage/enabled"
THP_SAVE="${STORAGE}/thp${STORAGE_SUFFIX}"
[ -e "$THP_ENABLE" ] || THP_ENABLE="/sys/kernel/mm/redhat_transparent_hugepage/enabled"
enable_transparent_hugepages() {
if [ -e $THP_ENABLE ]; then
cut -f2 -d'[' $THP_ENABLE | cut -f1 -d']' > $THP_SAVE
(echo always > $THP_ENABLE) &> /dev/null
fi
}
restore_transparent_hugepages() {
if [ -e $THP_SAVE ]; then
(echo $(cat $THP_SAVE) > $THP_ENABLE) &> /dev/null
rm -f $THP_SAVE
fi
}
#
# WIFI tuning
#
# usage: _wifi_set_power_level level
_wifi_set_power_level() {
# 0 auto, PM enabled
# 1-5 least savings and lowest latency - most savings and highest latency
# 6 disable power savings
level=$1
# do not report errors on systems with no wireless
[ -e /proc/net/wireless ] || return 0
# apply the settings using iwpriv
ifaces=$(cat /proc/net/wireless | grep -v '|' | sed 's@^ *\([^:]*\):.*@\1@')
for iface in $ifaces; do
iwpriv $iface set_power $level
done
# some adapters may rely on sysfs
for i in /sys/bus/pci/devices/*/power_level; do
(echo $level > $i) &> /dev/null
done
}
enable_wifi_powersave() {
_wifi_set_power_level 5
}
disable_wifi_powersave() {
_wifi_set_power_level 0
}
#
# BLUETOOTH tuning
#
disable_bluetooth() {
hciconfig hci0 down >/dev/null 2>&1
lsmod | grep -q btusb && rmmod btusb
}
enable_bluetooth() {
modprobe btusb
hciconfig hci0 up >/dev/null 2>&1
}
#
# USB tuning
#
_usb_autosuspend() {
value=$1
for i in /sys/bus/usb/devices/*/power/autosuspend; do echo $value > $i; done &> /dev/null
}
enable_usb_autosuspend() {
_usb_autosuspend 1
}
disable_usb_autosuspend() {
_usb_autosuspend 0
}
#
# SOUND CARDS tuning
#
enable_snd_ac97_powersave() {
save_set_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save Y
}
disable_snd_ac97_powersave() {
save_set_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save N
}
restore_snd_ac97_powersave() {
restore_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save $1
}
set_hda_intel_powersave() {
save_set_sys hda_intel /sys/module/snd_hda_intel/parameters/power_save $1
}
restore_hda_intel_powersave() {
restore_sys hda_intel /sys/module/snd_hda_intel/parameters/power_save $1
}
#
# VIDEO CARDS tuning
#
# Power savings settings for Radeon
# usage: set_radeon_powersave dynpm | default | low | mid | high
set_radeon_powersave () {
[ "$1" ] || return
[ -e /sys/class/drm/card0/device/power_method ] || return
if [ "$1" = default -o "$1" = auto -o "$1" = low -o "$1" = med -o "$1" = high ]; then
[ -w /sys/class/drm/card0/device/power_profile ] || return
save_sys radeon_profile /sys/class/drm/card0/device/power_profile
save_set_sys radeon_method /sys/class/drm/card0/device/power_method profile
set_sys /sys/class/drm/card0/device/power_profile "$1"
elif [ "$1" = dynpm ]; then
save_sys radeon_profile /sys/class/drm/card0/device/power_profile
save_set_sys radeon_method /sys/class/drm/card0/device/power_method dynpm
fi
}
restore_radeon_powersave () {
restore_sys radeon_method /sys/class/drm/card0/device/power_method profile
_rrp_method="`get_stored_sys radeon_method`"
[ -z "$_rrp_method" -o _rrp_method="profile" ] && restore_sys radeon_profile /sys/class/drm/card0/device/power_profile default
}
#
# SOFTWARE tuning
#
RSYSLOG_CFG="/etc/rsyslog.conf"
RSYSLOG_SAVE="${STORAGE}/cpuspeed${STORAGE_SUFFIX}"
disable_logs_syncing() {
cp -p $RSYSLOG_CFG $RSYSLOG_SAVE
sed -i 's/ \/var\/log/-\/var\/log/' $RSYSLOG_CFG
}
restore_logs_syncing() {
mv -Z $RSYSLOG_SAVE $RSYSLOG_CFG || mv $RSYSLOG_SAVE $RSYSLOG_CFG
}
#
# HARDWARE SPECIFIC tuning
#
# Asus EEE with Intel Atom
_eee_fsb_control() {
value=$1
if [ -e /sys/devices/platform/eeepc/she ]; then
echo $value > /sys/devices/platform/eeepc/she
elif [ -e /sys/devices/platform/eeepc/cpufv ]; then
echo $value > /sys/devices/platform/eeepc/cpufv
elif [ -e /sys/devices/platform/eeepc-wmi/cpufv ]; then
echo $value > /sys/devices/platform/eeepc-wmi/cpufv
fi
}
eee_set_reduced_fsb() {
_eee_fsb_control 2
}
eee_set_normal_fsb() {
_eee_fsb_control 1
}
#
# modprobe configuration handling
#
kvm_modprobe_file=/etc/modprobe.d/kvm.rt.tuned.conf
teardown_kvm_mod_low_latency()
{
rm -f $kvm_modprobe_file
}
setup_kvm_mod_low_latency()
{
local HAS_KPS=""
local HAS_NX_HP=""
local HAS_PLE_GAP=""
local WANTS_KPS=""
local WANTS_NX_HP=""
local WANTS_PLE_GAP=""
modinfo -p kvm | grep -q kvmclock_periodic_sync && HAS_KPS=1
modinfo -p kvm | grep -q nx_huge_pages && HAS_NX_HP=1
modinfo -p kvm_intel | grep -q ple_gap && HAS_PLE_GAP=1
grep -qs kvmclock_periodic_sync "$kvm_modprobe_file" && WANTS_KPS=1
grep -qs nx_huge_pages "$kvm_modprobe_file" && WANTS_NX_HP=1
grep -qs ple_gap "$kvm_modprobe_file" && WANTS_PLE_GAP=1
if [ "$HAS_KPS" != "$WANTS_KPS" -o "$HAS_PLE_GAP" != "$WANTS_PLE_GAP" -o \
"$HAS_NX_HP" != "$WANTS_NX_HP" ]; then
teardown_kvm_mod_low_latency
[ "$HAS_KPS" ] && echo "options kvm kvmclock_periodic_sync=0" > $kvm_modprobe_file
[ "$HAS_NX_HP" ] && echo "options kvm nx_huge_pages=0" >> $kvm_modprobe_file
[ "$HAS_PLE_GAP" ] && echo "options kvm_intel ple_gap=0" >> $kvm_modprobe_file
fi
return 0
}
#
# KSM
#
KSM_SERVICES="ksm ksmtuned"
KSM_RUN_PATH=/sys/kernel/mm/ksm/run
KSM_MASK_FILE="${STORAGE_PERSISTENT}/ksm-masked"
disable_ksm()
{
if [ ! -f $KSM_MASK_FILE ]; then
# Always create $KSM_MASK_FILE, since we don't want to
# run any systemctl commands during boot
if ! touch $KSM_MASK_FILE; then
die "failed to create $KSM_MASK_FILE"
fi
# Do not run any systemctl commands if $KSM_SERVICES units do not exist
systemctl cat -- $KSM_SERVICES &> /dev/null || return 0
systemctl --now --quiet mask $KSM_SERVICES
# Unmerge all shared pages
test -f $KSM_RUN_PATH && echo 2 > $KSM_RUN_PATH
fi
}
# Should only be called when full_rollback == true
enable_ksm()
{
if [ -f $KSM_MASK_FILE ]; then
# Do not run any systemctl commands if $KSM_SERVICES units do not exist
systemctl cat -- $KSM_SERVICES &> /dev/null || return 0
if systemctl --quiet unmask $KSM_SERVICES; then
rm -f $KSM_MASK_FILE
fi
fi
}
die() {
echo "$@" >&2
exit 1
}
#
# ACTION PROCESSING
#
error_not_implemented() {
echo "tuned: script function '$1' is not implemented." >&2
}
# implicit actions, will be used if not provided by profile script:
#
# * start must be implemented
# * stop must be implemented
start() {
error_not_implemented start
return 16
}
stop() {
error_not_implemented stop
return 16
}
#
# main processing
#
process() {
ARG="$1"
shift
case "$ARG" in
start)
start "$@"
RETVAL=$?
;;
stop)
stop "$@"
RETVAL=$?
;;
verify)
if declare -f verify &> /dev/null;
then
verify "$@"
else
:
fi
RETVAL=$?
;;
*)
echo $"Usage: $0 {start|stop|verify}"
RETVAL=2
;;
esac
exit $RETVAL
}
Zerion Mini Shell 1.0